Endothelial cells stimulate ANF secretion from atrial myocytes in co-culture

Using a novel in vitro co-culture system, we investigated the possible influence of vascular endothelial cells on the secretion of atrial natriuretic factor (ANF) from atrial myocytes. Co-culture of bovine aortic endothelial cells grown on Cytodex-3 microcarrier beads with primary monolayer cultures of neonatal rat myocytes induced a 2.1-fold increase in immunoreactive ANF (irANF) in the medium, compared with irANF in medium from atrial cultures alone. This increase did not appear to be the result of processing of prohormone to more immunoreactive species, and could be inhibited by 47% with 10 microM acetylcholine. The endothelium-derived vasoconstrictor peptide, endothelin, elicited a dose-dependent increase in ANF secretion from atrial cultures, but, contrary to vasopressin, was incapable of further stimulating release from atrial-endothelial co-cultures. These experiments suggest that endothelium stimulates the release of ANF from myocytes, possibly by the action of the peptide endothelin.     

Role of endothelin receptor subtypes in volume-stimulated ANF secretion

The role of endothelin (ET) receptors was tested in volume-stimulated atrial natriuretic factor (ANF) secretion in conscious rats. Mean ANF responses to slow infusions (3 x 3.3 ml/8 min) were dose dependently reduced (P < 0.05) by bosentan (nonselective ET-receptor antagonist) from 64.1 +/- 18.1 (SE) pg/ml (control) to 52.6 +/- 16.1 (0.033 mg bosentan/rat), 16.1 +/- 7.6 (0. 33 mg/rat), and 11.6 +/- 6.5 pg/ml (3.3 mg/rat). The ET-A-receptor antagonist BQ-123 (1 mg/rat) had no effect relative to DMSO controls, whereas the putative ET-B antagonist IRL-1038 (0.1 mg/rat) abolished the response. In a second protocol, BQ-123 (>/=0.5 mg/rat) nonsignificantly reduced the peak ANF response (106.1 +/- 23.0 pg/ml) to 74.0 +/- 20.5 pg/ml for slow infusions (3.5 ml/8.5 min) but reduced the peak response (425.3 +/- 58.1 pg/ml) for fast infusions (6.6 ml/1 min) by 49.9% (P < 0.001) and for 340 pmoles ET-1 (328.8 +/- 69.5 pg/ml) by 83.5% (P < 0.0001). BQ-123 abolished the ET-1-induced increase in arterial pressure (21.8 +/- 5.2 mmHg at 1 min). Changes in central venous pressure were similar for DMSO and BQ-123 (slow: 0.91 and 1.14 mmHg; fast: 4.50 and 4.13 mmHg). The results suggest 1) ET-B receptors mainly mediate the ANF secretion to slow volume expansions of <1.6%/min; and 2) ET-A receptors mainly mediate the ANF response to acute volume overloads.     

Effect of nitric oxide on basal and stretch-induced release of atrial natriuretic factor (ANF) from isolated perfused rat atria

We investigated the effect of the NO donor SNAP (6.7 nM) on basal and stretch-induced ANF release from isolated perfused rat atria. There was no significant difference in basal ANF secretion between the vehicle- and SNAP-infused atria (SNAP: 388+/-63 pg. 100 microl(-1), n = 13 vs. vehicle: 349+/-26 pg. 100 microl(-1), n = 5). Atrial distention caused an increase in ANF secretion in both the buffer- and SNAP-treated groups. SNAP greatly attenuated the stretch-induced increase in ANF (SNAP: 225+/-7 pg. 100 microl(-1), n = 5 vs. vehicle: 448+/-72 pg. 100 microl(-1), n = 13, P < 0.05). The compliance of atria treated with SNAP was lower than that of the vehicle-perfused atria (P < 0.05). Thus, although SNAP appeared to attenuate stretch-induced ANF secretion, there was in fact no significant difference in the ratio of Delta[ANF] to Deltaintraluminal volume (SNAP: 5.8+/-1.3 pg. 100 microl(-1). microl(-1) vs. vehicle: 8.2+/-1.4 pg. 100 microl(-1). microl(-1).). In conclusion, we found no evidence that NO alters the control of basal or stretch-induced ANF secretion. NO can however reduce ANF release by shifting the pressure-volume curve, so that a given increase in atrial pressure is associated with a smaller increase in intraluminal volume and reduced atrial distention.     

ANF (Arg 101--Tyr 126) is the peptide secreted by rat atrial cardiocytes in culture

The atrial natriuretic factor (ANF) secreted from rat cardiocytes in culture was purified and characterized. The purification procedure involves extraction of ANF by activated Vycor glass, followed by HPLC on C18 mu Bondapak and Vydac columns. The detection of ANF in column eluates was performed by a simple and sensitive radioimmunoassay. The amino acid composition and N-terminal amino acid sequencing appeared to be identical to the Arg 101 - Tyr 126 peptide. The isolated ANF showed biological activity, inhibiting basal and ACTH-stimulating aldosterone secretion from rat zona glomerulosa cells with the same potency as the synthetic peptide.     

Radioimmunoassay of atrial natriuretic factor (ANF) in rat atria

We describe a solid phase radioimmunoassay for atrial natriuretic factor (ANF) and its application for measurement of this peptide in homogenates of rat atria. The method uses a synthetic 26 amino-acid fragment (8-33 ANF) of the native peptide. Sample (or standard) are incubated with the rabbit anti-8-33 ANF antiserum in peptide (8-33 ANF)-coated wells. Then an excess of I125 goat anti-rabbit IgG is added. The radioactivity bound is directly proportional to the amount of ANF present. The concentration of immunoreactive ANF has been found to be about 4 times higher in the right atrium than in the left atrium of the rat.     

Dissociation and enrichment of rat atrial myocytes containing atrial natriuretic factor (ANF)

Methodologies developed for the dissociation and subsequent enrichment of muscle and nonmuscle cells from atrial myocardium were used to evaluate the contribution of these cell populations to the natriuretic, diuretic and vasoactive properties of crude atrial tissue extracts. Suspensions of single cells, which contained approximately 34% myocytes, were prepared from atrial tissue blocks with a collagenase-trypsin digestion followed by gentle mechanical disruption. Differential centrifugation and unit gravity sedimentation techniques were employed to enrich the 'muscle' and 'nonmuscle' cell suspensions to a purity of approximately 91 and 95%, respectively. Cell extracts were bioassayed for natriuretic activity in saline-expanded, pentobarbital-anesthetized, female rats. Extracts obtained from 'initial' and 'muscle' cell suspensions significantly enhanced sodium and chloride excretion as well as urine flow while extracts from 'nonmuscle' cell suspensions had no effect on renal function. Sodium excretion was dose-dependent and increased linearly with increasing numbers of extracted and infused myocytes. This simple two-step centrifugation and sedimentation protocol can be utilized to obtain enriched atrial myocyte populations for subsequent physiologic and biochemical studies.     

Endogenous angiotensin II suppresses stretch-induced ANP secretion via AT1 receptor pathway

Angiotensin II (Ang II) is released by stretch of cardiac myocytes and has paracrine and autocrine effects on cardiac myocytes and fibroblasts. However, the direct effect of Ang II on the secretion of atrial natriuretic peptide (ANP) is unclear. The aim of the present study is to test whether Ang II affects stretch-induced ANP secretion. The isolated perfused beating atria were used from control and two-kidney one-clip hypertensive (2K1C) rats. The volume load was achieved by elevating the height of outflow catheter connected with isolated atria from 5 cmH₂O to 7.5 cmH₂O. Atrial stretch by volume load caused increases in atrial contractility by 60% and in ANP secretion by 100%. Ang II suppressed stretch-induced ANP secretion and tended to increase atrial contractility whereas losartan stimulated stretch-induced ANP secretion. Neither PD123319 nor A779 had direct effect on stretch-induced ANP secretion. The suppressive effect of Ang II on stretch-induced ANP secretion was blocked by the pretreatment of losartan but not by the pretreatment of PD123319 or A779. In hypertrophied atria from 2K1C rats, stretch-induced ANP concentration attenuated and atrial contractility augmented. The response of stretch-induced ANP secretion to Ang II and losartan augmented. The expression of AT1 receptor protein and mRNA increased but AT2 and Mas receptor mRNA did not change in 2K1C rat atria. Therefore, we suggest that Ang II generated endogenously by atrial stretch suppresses stretch-induced ANP secretion through the AT1 receptor and alteration of Ang II effect in 2K1C rat may be due to upregulation of AT1 receptor.     

Studies of ANF processing and secretion using a primary cardiocyte culture model.

In contrast to most other endocrine peptides ANF is stored in the heart as part of a larger prohormone, often called pro-ANF, yet is found in the circulation as a 28 amino acid peptide, called ANF. It has been shown that the conversion of the 126 amino acid pro-ANF to ANF occurs in the heart. This paper summarizes studies from our laboratory that have used a primary neonatal rat heart cell culture system to investigate the location and mechanism of this relatively unusual processing event. We have found that in culture the maintenance of the cells in a glucocorticoid-containing serum-free medium is required to observe processing as occurs in vivo. The cells contain the prohormone while ANF accumulates in the medium. Various experiments with protease inhibitors, pulse-chase biosynthetic labeling, incubation of cells with ANF-related peptides, and enrichment of cultures for myocytes have resulted in our conclusion that the processing of pro-ANF takes place most likely within the cardiac myocyte just prior to, but in concert with secretion. We have expanded on the use of this processing-competent atrial myocyte culture system to investigate mechanisms of stimulated ANF secretion. It has been shown that the activation of several phospholipase C-coupled receptors (e.g., alpha 1-adrenergic and endothelin receptors) produces a robust release of ANF, but only in cultures that have been maintained under appropriate conditions. Further, it is apparent that the phenylephrine- or endothelin-mediated release of ANF depends in part on influx of extracellular calcium (Ca2+o), while the remaining component of stimulated release may depend on mobilization of intracellular calcium. It also appears that these agonists produce an initial phase of stimulated release, occurring within the first 5 min of agonist exposure, independent of Ca2+o, and a sustained phase that persists as long as the agonists remain on the cells, and depends on the presence of Ca2+o and thus calcium influx. Taken together our studies indicate that the hormonal environment may be an important factor directing the development of differentiated endocrine functions by atrial myocytes and may be involved in the regulation of ANF expression, biosynthesis, and secretion.     

Angiotensin III stimulates high stretch-induced ANP secretion via angiotensin type 2 receptor

Angiotensin III (Ang III) is metabolized from Ang II by aminopeptidase (AP) A and in turn, Ang III is metabolized to Ang IV by APN. Ang III is known to have a similar effect to Ang II on aldosterone secretion, but the effect of Ang III on atrial natriuretic peptide (ANP) secretion from cardiac atria is not known. The aim of the present study is to define the effect of Ang III on ANP secretion and its receptor subtype using isolated perfused beating atria. The volume load was achieved by elevating the height of outflow catheter connected with isolated atria from 5 cmH₂O to 7.5 cmH₂O. Atrial stretch by volume load increased atrial contractility and ANP secretion. Ang III stimulated stretch-induced ANP secretion in a dose-dependent manner without change in atrial contractility. The stimulated effect of Ang III (1 μM) on stretch-induced ANP secretion was blocked by the pretreatment of Ang II type 2 (AT₂) receptor antagonist but not by AT₁ or Mas receptor antagonist. Pretreatment with inhibitor of phosphoinositide 3-kinase (PI3K), Akt, nitric oxide synthase, soluble guanylyl cyclase, or protein kinase G (PKG) attenuated Ang III-stimulated ANP secretion. When Ang III (40 nM) or Ang II (4 nM) was infused for 10 min into anesthetized rats, mean arterial pressure was increased about 10%. However, Ang III increased plasma ANP level by 35.81 ± 10.19% but Ang II decreased plasma ANP level by 30.41 ± 7.27%. Therefore, we suggest that Ang III, opposite to Ang II, stimulated stretch-induced ANP secretion through AT₂ receptor/PI3K/Akt/nitric oxide/PKG pathway.     

Role of stretch-activated channels on the stretch-induced changes of rat atrial myocytes

The role of stretch-activated channels (SACs) on the stretch-induced changes of rat atrial myocytes was studied using a computer model that incorporated various ion channels and transporters including SACs. A relationship between the extent of the stretch and the activation of SACs was formulated in the model based on experimental findings to reproduce changes in electrical activity and Ca²⁺ transients by stretch. Action potentials (APs) were significantly changed by the activation of SACs in the model simulation. The duration of the APs decreased at the initial fast phase and increased at the late slow phase of repolarisation. The resting membrane potential was depolarised from −82 to −70 mV. The Ca²⁺ transients were also affected. A prolonged activation of SACs in the model gradually increased the amplitude of the Ca²⁺ transients. The removal of Ca²⁺ permeability through SACs, however, had little effect on the stretch-induced changes in electrical activity and Ca²⁺ transients in the control condition. In contrast, the removal of the Na⁺ permeability nearly abolished these stretch-induced changes. Plotting the peaks of the Ca²⁺ transients during the activation of the SACs along a time axis revealed that they follow the time course of the Na_i⁺ concentration. The Ca²⁺ transients were not changed when the Na_i⁺ concentration was fixed to a control value (5.4 mM). These results predicted by the model suggest that the influx of Na⁺ rather than Ca²⁺ through SACs is more crucial to the generation of stretch-induced changes in the electrical activity and associated Ca²⁺ transients of rat atrial myocytes.     

Synergism of atrial pressure and adrenergic stimulation for ANF release in the rat.

The effect of adrenergic stimulation on atrial natriuretic factor (ANF) release was studied in conscious rats. 60 min i.v. infusion of 15 micrograms/kg/min phenylephrine produced an elevation in mean arterial pressure of about 50 mmHg that was associated with an immediate, transitory increase in both central venous (CVP) and left ventricular end-diastolic (LVEDP) pressures. Heart rate was not changed. The elevation in CVP, but not LVEDP, persisted until 5 min, together with a 50-fold increase in plasma C-terminal ANF concentrations (from 19 +/- 5 to 1010 +/- 339 fmol/ml); at 30 min, in the absence of any increases in CVP or LVEDP, plasma ANF was still elevated by 5-fold (114 +/- 35 fmol/ml). It is suggested that adrenergic stimulation 'per se' can induce ANF release, independently of atrial pressure. Furthermore, combined adrenergic stimulation and increased atrial wall tension could result in a potentiation of the ANF secretory response 'in vivo', in the case where both stimuli are present concomitantly.     

PPAR-gamma ligands modulate effects of LPS in stimulated rat synovial fibroblasts

This work demonstrated the constitutive expressionof peroxisome proliferator-activated receptor (PPAR)- and PPAR-in rat synovial fibroblasts at both mRNA and protein levels. A decrease in PPAR- expression induced by 10 µg/ml lipopolysaccharide (LPS) was observed, whereas PPAR- mRNA expression was not modified. 15-Deoxy-^12,14-prostaglandin J₂(15d-PGJ₂) dose-dependently decreased LPS-induced cyclooxygenase (COX)-2 (80%) and inducible nitric oxide synthase (iNOS) mRNA expression (80%), whereas troglitazone (10 µM) only inhibited iNOS mRNA expression (50%). 15d-PGJ₂ decreasedLPS-induced interleukin (IL)-1 (25%) and tumor necrosis factor(TNF)- (40%) expression. Interestingly, troglitazone stronglydecreased TNF- expression (50%) but had no significant effect onIL-1 expression. 15d-PGJ₂ was able to inhibitDNA-binding activity of both nuclear factor (NF)-B and AP-1.Troglitazone had no effect on NF-B activation and was shown toincrease LPS-induced AP-1 activation. 15d-PGJ₂ andtroglitazone modulated the expression of LPS-induced iNOS, COX-2, andproinflammatory cytokines differently. Indeed, troglitazone seems tospecifically target TNF- and iNOS pathways. These results offer newinsights in regard to the anti-inflammatory potential of the PPAR-ligands and underline different mechanisms of action of15d-PGJ₂ and troglitazone in synovial fibroblasts.

     

Thromboxane receptors can modulate gastric acid secretion in the rat

The effects of PGE2 and the thromboxane A2 mimetic, U-46619, have been investigated on gastric secretion in the rat isolated gastric mucosa. Both compounds produced concentration-related inhibitions of histamine-induced secretion whereas only U-46619 inhibited methacholine-stimulated and basal secretion, and neither compound had any effect on the secretory response to dbcAMP. Indomethacin had no effect on the antisecretory activity of PGE2 but markedly reduced the potency of U-46619 suggesting that endogenous prostaglandins play a role in the U-46619 responses. However, direct inhibitory effects of U-46619 were seen at high concentrations. The thromboxane receptor antagonist AH23848, at concentrations selective for thromboxane receptors, had no effect on responses to PGE2 but markedly inhibited the effects of U-46619. We conclude that the antisecretory profile of U-46619 differs from that of PGE2. U-46619 has both direct and indirect antisecretory effects and these are mediated via thromboxane receptors in the rat gastric mucosa.     

Dopamine receptor antagonists inhibit the natriuretic response to atrial natriuretic factor (ANF)

The diuretic and natriuretic response of anesthetized rats to low doses of semi-purified atrial extracts or synthetic alpha-hANP was completely blocked by intravenous injection of 50 micrograms of haloperidol or chlorpromazine. Sulpiride or metoclopramide at the same doses did not show this effect. We conclude from these results that dopamine receptors, probably of the D1-type, are involved in the natriuretic effect of the atrial peptides.     

Experimental ductus arteriosus: the relationships of atrial pressure, dilatation and flow with ANF secretion

The design of the study was to determine whether an increased blood flow as seen in shunt lesions could serve as a stimulus for the secretion of atrial natriuretic factor (ANF). Since atrial pressure, flow, and dilatation are closely related, an experimental ductus arteriosus model was utilized, in which acute changes of flow are assumed not to dilate the left atrium. In six dogs, a Dacron graft was constructed between the main pulmonary artery and the innominate artery. Constricting and releasing the tape around the graft adjusted the amount of "ductal" shunting. The total pulmonary flow and the shunt flow were measured by electromagnetic-flow transducers around the aortic root and around the graft. Plasma ANF concentration was measured from both cardiac atria. The size of the left atrium was determined from echocardiographic measurements made from a short-axis view. The total pulmonary flow varied between 1.2 and 5.8 1/min. The highest measured ANF was 396 pg/ml, and this was from the left atrium when the pressure was 18 mmHg, the highest left atrial pressure recorded. The highest right atrial pressure (5 mmHg) also correlated with the highest right-atrial level of ANF (366 pg/ml). The right atrial pressure had a significant correlation with plasma ANF concentration (R = 0.43, p less than 0.05). Pulmonary flow and plasma ANF concentration did not correlate; neither did left atrial size and ANF levels in 16 flow states where the size was measured. In the absence of atrial dilatation there was minimal stimulus for ANF secretion. A transient increase of left atrial pressure, without a concomitant significant atrial dilatation, did not serve as a significant stimulus for ANF secretion.     

Decreased ANF atrial content and vascular reactivity to ANF in spontaneous and renal hypertensive rats

The relationship between ANF activity and hypertension was determined by measuring ANF atrial content and vascular reactivity in two different models: spontaneous hypertensive rats (SHR) and renal hypertensive rats (RHR). Atrial extracts and aortic strips were prepared from hypertensive and normotensive animals. Relaxant activities of extracts, synthetic ANF and nitroglycerin were assayed on superfused aortic strips previously contracted by norepinephrine. ANF atrial content was statistically significantly lower in both models of hypertension, presumably by increased ANF release into the circulation which results in depletion of tissue storage sites. Vascular subsensitivity to ANF and nitroglycerin was found in both models of hypertension. Diminished ANF vascular reactivity in hypertension could be due to receptor down-regulation and/or to a decrease in the ability of cGMP to induce relaxation.     

Alterations in atrial and plasma atrial natriuretic factor (ANF) content during development of hypoxia-induced pulmonary hypertension in the rat

Distension of the atrial wall has been proposed as a signal for the increased release of atrial natriuretic factor (ANF) from atrial myocytes in response to perceived volume overload. To determine whether pressure changes resulting from hypertension in the pulmonary circulation may stimulate release of ANF, rats were exposed to chronic hypobaric hypoxia for 3 or 21 days and the ANF concentration in the atria and plasma were determined by specific radioimmunoassay. Exposure to chronic hypoxia resulted in significant increases in hematocrit at both 3 (p less than 0.025) and 21 days (p less than 0.005) and in the development of right ventricular hypertrophy (RVH) expressed as the ratio of the weight of the right ventricle to the weight of the left ventricle and septum (RV/LV+S) at both 3 (RV/LV+S = 0.278 +/- 0.005) and 21 days (RV/LV+S = 0.536 +/- 0.021). After 21 days, left atrial (LA) ANF content was significantly increased in hypoxic rats compared to controls (508 +/- 70 ng/mg tissue vs 302 +/- 37 ng/mg), while right atrial (RA) ANF content was significantly reduced (440 +/- 45 vs 601 +/- 58 ng/mg). At this time, plasma ANF concentration was significantly elevated compared to controls (238 +/- 107 pg/ml vs 101 +/- 10 pg/ml). These results suggest that the development of pulmonary hypertension following chronic hypobaric exposure induces altered atrial ANF content and increased plasma ANF concentration as a result of altered distension of the atrial wall.     

The post-translational processing of rat pro-atrial natriuretic factor by primary atrial myocyte cultures

Primary cultures of neonatal rat atrial myocytes were maintained in two different serum-free media for up to 25 days. Reversed-phase high performance liquid chromatography coupled with atrial natriuretic factor (ANF)-specific radioimmunoassay demonstrated that the cultures maintained in our previously described serum-free medium (Glembotski, C.C., and Gibson, T. R. (1985) Biochem. Biophys. Res. Commun. 132, 1008-1017) secreted primarily ANF-(1-126)-like material, whereas those cultures maintained in a different formulation of medium secreted mostly ANF-(99-126)-like material. Cultures that secreted ANF(99-126)-like material were biosynthetically labeled with [35S]cysteine followed by immunoprecipitation of secreted ANF and analysis by reversed-phase, size exclusion, and ion-exchange high performance liquid chromatography. The labeled ANF-(99-126)-like peptide was shown to be chromatographically indistinguishable from other synthetic peptides related to ANF-(99-126). Labeled ANF purified from extracts of the cultured cells was chromatographically indistinguishable from authentic ANF-(1-126), and could be cleaved specifically by thrombin into labeled ANF-(99-126)-like material. These results indicate that primary atrial myocytes maintained under certain serum-free conditions are capable of secreting ANF-related material that is chromatographically indistinguishable from ANF-(99-126), the known circulating form of the hormone. Additional preliminary studies suggest that the presence of glucocorticoids in the culture medium may confer ANF processing ability on cultured myocytes.     

Involvement of Ni protein in the functional coupling of the atrial natriuretic factor (ANF) receptor to adenylate cyclase in rat lung plasma membranes

In the presence of 1 microM atrial natriuretic factor (ANF) and low (0.1 mM) Mg2+ concentrations, the initial rate of binding of [3H]guanosine 5'-[beta, gamma-imido)triphosphate [( 3H]p[NH]ppG) to rat lung plasma membranes was increased twofold to threefold. ANF-dependent stimulation of the initial rate of [3H]p[NH]ppG binding was reduced at high (5 mM) Mg2+ concentrations. Preincubation of membranes with p[NH]ppG (5 min at 37 degrees C) eliminated the ANF-dependent effect on [3H]p[NH]ppG binding whereas ANF-dependent [3H]p[NH]ppG binding was unaffected by similar pretreatment with guanosine 5'-[beta-thio]diphosphate (GDP[beta S]). An increase in ANF concentration from 10 pM to 1 microM caused a 40% decrease in forskolin-stimulated or isoproterenol-stimulated adenylate cyclase activities (IC50 5 nM) in rat lung plasma membranes. GTP (100 microM) was obligatory for the ANF-dependent inhibition of adenylate cyclase, which could be completely overcome by the presence of 100 microM GDP[beta S] or the addition of 10 mM Mn2+. Reduction of Na2+ concentration from 120 mM to 20 mM had the same effect. Pertussis toxin eliminated ANF-dependent inhibition of adenylate cyclase by catalyzing ADP-ribosylation of membrane-bound Ni protein (41-kDa alpha subunit of the inhibitory guanyl-nucleotide-binding protein of adenylate cyclase). The data support the notion that one of the ANF receptors in rat lung plasma membranes is negatively coupled to a hormone-sensitive adenylate cyclase complex via the GTP-binding Ni protein.     

D(3) receptor ligands modulate extracellular dopamine clearance in the nucleus accumbens

An involvement of the D(3) dopamine receptor in the regulation of extracellular dopamine has been suggested. However, the mechanisms mediating this effect are unclear. We have used the technique of no net flux microdialysis under transient conditions to examine the influence of the D(3) -preferring agonist (+)-PD128907 upon extracellular dopamine levels in the nucleus accumbens of the mouse. (+)-PD 128907 (0.1 mg/kg intraperitoneally) significantly decreased extracellular dopamine. This decrease was associated with a marked increase in the extraction fraction, which suggests an increase in dopamine clearance. The ability of D(3) -preferring compounds to modulate dopamine uptake was investigated in vitro using rotating disk electrode voltammetry. (+)-PD 128907 (10 nm) significantly increased the initial clearance rate of 3 microm dopamine in rat nucleus accumbens tissue suspensions. Kinetic analysis revealed no change in the apparent K (m) of uptake but it showed a 33% increase in V (max). In contrast, the D(3) antagonist GR 103691 (10 nm) significantly decreased dopamine uptake. Consistent with the low levels of D(3) receptors in the dorsal striatum, neither compound affected uptake in tissue suspensions from this brain region. These data indicate that D(3) receptor activation increases dopamine uptake in the nucleus accumbens and suggest that this receptor subtype can regulate extracellular dopamine by modulating the DA transporter activity.